Electrochemical Hydrogen Evolution Reaction Evaluation of CoNi(Cr/V) Medium-Entropy Alloys in an Acidic Environment

Ahmad, Shahbaz; Egilmez, Mehmet; Shanmugam, Ramasamy; Abuzaid, Wael; Sharma, Shuchi; Gangavarapu, Ranga Rao; Mustafa, Faisal; El-Khatib, Sami; Alawadhi, Hussain; Kannan, Arunachala M.

doi:10.1021/acsaem.3c01827

Cited by 5 publications

(4 citation statements)

References 72 publications

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“…The 2000th LSV polarization curve shifted slightly toward the positive potential side with a slight change in the onset potential compared with the first curve. The oxidation potentials and corresponding current responses for nickel(II) oxidation in both curves are almost similar to the overpotentials at a current density of 10 mA cm –2 . However, the overpotential at 50 mA cm –2 for the 2000th curve is 525 mV vs RHE with a slight loss in the OER potential by ca.…”

Section: Resultsmentioning

confidence: 58%

“…In addition, the double-layer capacitance of complex 4 (1.23 mF cm −2 ) was lower than that of the 4b composite (2.11 mF cm −2 ), which is probably due to the formation of stable π−π and synergetic interactions between the coumarin ring of the complex 4 and MWCNTs, while other composites displayed similar capacitance values as that of the bare complex. 40 However, the overpotential at 50 mA cm −2 for the 2000th curve is 525 mV vs RHE with a slight loss in the OER potential by ca. 2.2% with a Δη 50 of 11 mV vs RHE.…”

Section: Morphology Studies Of the Complex Compositementioning

confidence: 99%

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Nickel(II)–N-Heterocyclic Carbene Complex and its Carbon Nanotube Composites as Efficient Bifunctional Electrocatalysts for Hydrogen and Oxygen Evolution Reactions and Mercury-Sensing Applications

Daniel,

Vijayakumar,

Gandigawad

et al. 2024

Energy Fuels

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The widespread practical applications of fuel cells depended on the rational development of state-of-the-art, readily accessible earth-abundant electrocatalysts for water-splitting reactions, hydrogen evolution reactions (HERs), and oxygen evolution reactions (OERs). This work demonstrated the utilization of nickel(II)−N-heterocyclic carbene (NHC) complex 4 encased multiwalled carbon nanotube (MWCNT) composites with extensive π−π stacking interactions as proficient and nonprecious bi-functional electrocatalysts for the HER and OER and for the sensitive detection of mercury. The nickel−NHC complex was characterized using NMR, Fourier-transform infrared spectroscopy (FT-IR), and field emission scanning electron microscopy (FESEM) techniques. The fabricated Ni−NHC− MWCNT catalysts exhibited significant enhancements in the HER, OER, and sensing performances, which are comparable to those of nanomaterials with decent durability in acidic, alkaline, and phosphate-buffered saline (PBS) electrolytes. The complex− MWCNT composite 4b displayed a notably lower Tafel slope value with overpotetials of −364 (HER) and 380 (OER) mV vs reversible hydrogen electrode (RHE) and larger double-layer capacitances (C dl ) of 5.9 and 3.4 mF cm −2 , respectively. The complex− MWCNT composite catalyst was highly durable for the HER and OER activities even after 2000 repeated Linear sweep voltammetry (LSV) cycles. Complex 4 and its MWCNT composite 4b demonstrated promising voltammetric responses in mercury-sensing applications over a linear range of 5−55 and 5−60 nM, respectively. Differential pulse voltammetry (DPV) exhibited a linear response for mercury at the modified electrode with limits of detection of 38.05 and 9.33 nM for 4 and 4b, respectively. Moreover, the stability, reproducibility, and repeatability of the fabricated HER and OER electrocatalysts were excellent, and the designed electrodes were successfully employed in electrocatalytic applications.

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Section: Resultsmentioning

confidence: 58%

Section: Morphology Studies Of the Complex Compositementioning

confidence: 99%

Nickel(II)–N-Heterocyclic Carbene Complex and its Carbon Nanotube Composites as Efficient Bifunctional Electrocatalysts for Hydrogen and Oxygen Evolution Reactions and Mercury-Sensing Applications

Daniel,

Vijayakumar,

Gandigawad

et al. 2024

Energy Fuels

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“…This technique of 3D printing and laser ablation can be extended to a broad range of photoactive materials for fabricating nanostructured photoelectrodes. Figure shows the developmental path of stable photocatalytic systems and electrode fabrication methods with an aim to achieve the highest solar energy conversion efficiency. − …”

Section: Research Trends and Conclusionmentioning

confidence: 99%

Review of Laser-Based Surface Nanotexturing for Enhanced Light Absorption and Photoelectrochemical Water Splitting

Sharma,

Ahmad,

Prasad

et al. 2023

ACS Appl. Nano Mater.

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Commercialization of photoelectrochemical (PEC)water-splitting technology is hindered by the slower kinetics of oxygen evolution in the currently available photoanodes. Light absorption, charge-separation, and charge-transfer efficiencies determine the kinetics of the oxygen evolution reaction (OER) at semiconductor photoanode surfaces. All these parameters can be maximized by nanotexturing the photoanode surface through morphological (cones, pyramids, grids, etc.) control and crystallographic (facets) orientation. The primary objective of texturing on conducting substrates is to improve the photoconversion efficiency in PEC devices through an increased surface area and light absorption. Laser-assisted ablation and melt-fusion additive techniques allow for rapid iteration of morphological architecture designs for optimized light absorption properties. This work reviews various ultrafast laser techniques employed for fabricating nanotextured surfaces and their impact on PEC performance. Compared with conventional electrode fabrication techniques, laser-based surface nanotexturing techniques provide a cost-effective, rapid design, and validation method for the research and development of photoelectrochemical water splitting technologies.

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“…However, this process suffers from high energy requirements and the production of CO 2 , which cause further environmental issues. − Recently, electrocatalytic water splitting for efficient production of H 2 has been considered a propitious solution for achieving a clean energy system. , It has been shown that noble metals like Pt, Ru, and Pd can be used as the best choices for catalysis of the hydrogen evolution reaction (HER) due to their high current density and low overpotential . In order to achieve low-cost catalysts while maintaining high efficiency, some noble metal-free systems, like metal phosphides, , chalcogenides, , oxides and alloys, − have been introduced in recent years. However, there is still great research attention to develop and design new efficient and low-cost electrocatalysts for the HER process.…”

Section: Introductionmentioning

confidence: 99%

Lacunary Keggin-Type Phosphomolybdate Functionalized with Ru(acac)₃ Complex for Electrocatalytic H₂ Production in Aqueous Media

Khalaji-Verjani,

Masteri-Farahani

2024

ACS Appl. Energy Mater.

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The design and manufacture of efficient and durable systems for electrocatalytic hydrogen evolution reaction (HER) is an important challenge for achieving clean and sustainable energy resources. Here, we report the synthesis and characterization of a lacunary polyoxometalate-based electrocatalyst, i.e., PMo 11 −Ru(acac) 3 through the modification of Na 7 PMo 11 O 39 (PMo 11 ) with aminopropyltrimethoxysilane and the next reaction with Ru(acac) 3 for efficient hydrogen evolution in acidic media. The results of elemental analysis as well as Fourier transform infrared and X-ray photoelectron spectroscopies approved the successful functionalization of lacunary PMo 11 with the Ru complex. The prepared electrocatalyst showed high HER activity and stability with a low overpotential of 91 mV at a current density of 10 mA cm −2 , which introduces it as an efficient electrocatalyst for HER in aqueous solution. Further investigations demonstrated that PMo 11 −Ru(acac) 3 has appropriate stability, retaining its activity after 2000 cycles. The vicinity of PMo 11 and the Ru complex has been suggested to allow possible synergism between them, leading to improved functional behavior and promoting the HER. Preparation of a new electrocatalyst is reported for application in the electrocatalytic HER. The electrocatalyst was based on the interaction of a lacunary phosphomolybdate anion and Ru(acac) 3 complex. The electrocatalyst revealed a high performance in hydrogen evolution for a prolonged time span.

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Electrochemical Hydrogen Evolution Reaction Evaluation of CoNi(Cr/V) Medium-Entropy Alloys in an Acidic Environment

Cited by 5 publications

References 72 publications

Nickel(II)–N-Heterocyclic Carbene Complex and its Carbon Nanotube Composites as Efficient Bifunctional Electrocatalysts for Hydrogen and Oxygen Evolution Reactions and Mercury-Sensing Applications

Nickel(II)–N-Heterocyclic Carbene Complex and its Carbon Nanotube Composites as Efficient Bifunctional Electrocatalysts for Hydrogen and Oxygen Evolution Reactions and Mercury-Sensing Applications

Review of Laser-Based Surface Nanotexturing for Enhanced Light Absorption and Photoelectrochemical Water Splitting

Lacunary Keggin-Type Phosphomolybdate Functionalized with Ru(acac)₃ Complex for Electrocatalytic H₂ Production in Aqueous Media

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Electrochemical Hydrogen Evolution Reaction Evaluation of CoNi(Cr/V) Medium-Entropy Alloys in an Acidic Environment

Cited by 5 publications

References 72 publications

Nickel(II)–N-Heterocyclic Carbene Complex and its Carbon Nanotube Composites as Efficient Bifunctional Electrocatalysts for Hydrogen and Oxygen Evolution Reactions and Mercury-Sensing Applications

Nickel(II)–N-Heterocyclic Carbene Complex and its Carbon Nanotube Composites as Efficient Bifunctional Electrocatalysts for Hydrogen and Oxygen Evolution Reactions and Mercury-Sensing Applications

Review of Laser-Based Surface Nanotexturing for Enhanced Light Absorption and Photoelectrochemical Water Splitting

Lacunary Keggin-Type Phosphomolybdate Functionalized with Ru(acac)3 Complex for Electrocatalytic H2 Production in Aqueous Media

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Product

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About

Lacunary Keggin-Type Phosphomolybdate Functionalized with Ru(acac)₃ Complex for Electrocatalytic H₂ Production in Aqueous Media